The first bis-cyanoxime: synthesis and properties of a new versatile and accessible polydentate bifunctional building block for coordination and supramolecular chemistry

Cheadle, Carl; Gerasimchuk, Nikolay; Barnes, Charles L.; Tyukhtenko, Sergiy; Silchenko, Svitlana

doi:10.1039/c2dt31924a

Cited by 8 publications

(3 citation statements)

References 56 publications

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“…The presence of the cyano-group lowers the p K a of cyanoximes to the factor of 10 3 –10 5 , as compared to conventional oximes or dioximes, making them very good ligands. Yellow anionic cyanoximes represent excellent polydentate ligands for coordination and organometallic chemistry, − forming numerous complexes with main group − and transition metals. − Chelating coordination most often involves the formation of five- or six-membered metallocycles with N′,N″, N,O , or N,S , donor atoms sets, depending on the particular cyanoxime used. In complexes with transition metals, the bis -chelating function is accompanied by the axial coordination of water molecules which makes these complexes well suited for the formation of 1D coordination polymers of the I or III type, as well as dimeric structures II (Scheme ).…”

Section: Resultsmentioning

confidence: 99%

Nickel(II) Aqua Complexes with Chelating Ligands: What Happens When Water Is Gone?

Opalade

Labádi

Gómez‐García

et al. 2022

Crystal Growth & Design

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A series of hydrated Ni(II) ion complexes with 2cyano-2-hydroxyimino-acetamide (HACO), hydroxyimino-pyridin-2-yl-acetonitrile (H2PCO), 2-cyano-2-hydroxyiminoacetic acid ethyl ester (HECO), 2-hydroxyimino-3-oxo-3-piperidin-1-yl-propionitrile (HPiPCO), and 2-cyano-2-hydroxyimino-N-pyrrolidinacetamide (HPyrCO) ligands were synthesized and characterized as precursors for waterless Ni(II) coordination polymers. All these complexes have [NiL 2 (H 2 O) 2 ] composition with an axial position of coordinated water molecules and trans-geometry of the Ni(II) center, surrounded by two deprotonated cyanoxime anions forming five-membered chelate rings. Based on thermal analysis profiles, the hydrated complexes were dehydrated, and structural changes were investigated by spectroscopic magnetochemistry methods and X-ray analysis. The measurements suggested a rearrangement of the complexes upon dehydration, leading to the formation of polymeric chains of the oximato-μ 2 -bridged nickel(II) complexes. Significant color changes were observed during the process. Thus, in all cases, the Niwith antiferromagnetically coupled Ni(II) centers was observed, instead of the formation of columnar 1D "poker chips" stacks with the formation of weak direct Ni•••Ni contacts found in other oxime-based nickel compounds. Some of the obtained "staircase-type" anhydrous coordination polymers can rehydrate upon exposure to moisture, restoring again the spectroscopic characteristics of hydrated complexes. This indicates the reversibility of the process and confirms crystal lattice flexibility.

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Section: Resultsmentioning

confidence: 99%

Nickel(II) Aqua Complexes with Chelating Ligands: What Happens When Water Is Gone?

Opalade

Labádi

Gómez‐García

et al. 2022

Crystal Growth & Design

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“…Among ambidentate ligands, oximes used in this work take a special place because of their strong affinity for nickel triad metals that favor square-planar geometry. − On the basis of our previous studies, − we selected cyanoximes ,− as ligands for binding Pt II centers. Cyanoximes are particularly flexible mixed-donor ligands that allow modular design and are the platform of choice for developing metal complexes with controlled self-assembly in solutions and the solid state. − …”

Section: Introductionmentioning

confidence: 99%

“…We also rationalized that the anion’s bulkiness from substituents would control the distance between the metal centers. Therefore, among known cyanoxime ligands, those with amide groups provide a greater variety of electronic and steric properties and solubility. − Thus, novel bivalent palladium and platinum complexes were synthesized using a cyanoxime ligand well soluble in organic solvents, 2-cyano-2-oximino- N , N ′-diethylaminoacetamide [HDECO, 1 ]. As we demonstrate below, the platinum complex self-assembles in solutions into a luminescent 1D polymeric “poker-chips” structure.…”

Section: Introductionmentioning

confidence: 99%

1D Polymeric Platinum Cyanoximate: A Strategy toward Luminescence in the Near-Infrared Region beyond 1000 nm

et al. 2015

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We report the synthesis and properties of the first representative of a new class of PtL2 complexes with ambidentate mixed-donor cyanoxime ligands [L = 2-cyano-2-oximino-N,N'-diethylaminoacetamide, DECO (1)]. Three differently colored polymorphs of "Pt(DECO)2" (3-5) were isolated, with the first two being crystallographically characterized. The dark-green complex [Pt(DECO)2]n (5) spontaneously forms in aqueous solution via aggregation of yellow monomeric complex 3 into the red dimer [Pt(DECO)2]2 (4), followed by further oligomerization into coordination polymer 5. A spectroscopic and light-scattering study revealed a "poker-chips"-type 1D polymeric structure of 5 in which units are held by noncovalent metallophilic interactions, forming a Pt---Pt wire. The polymer 5 shows a broad absorption at 400-900 nm and emission at unusually long wavelengths in the range of 1000-1100 nm in the solid state. The near-infrared (NIR) emission of polymer 5 is due to the formation of a small amount of nonstoichiometric mixed-valence Pt(II)/Pt(IV) species during synthesis. A featureless electron paramagnetic resonance spectrum of solid sample 5 recorded at +23 and -193 °C evidences the absence of Pt(III) states, and the compound represents a "solid solution" containing mixed-valence Pt(II)/Pt(IV) centers. Exposure of KBr pellets with 5% 5 to Br2 vapors leads to an immediate ∼30% increase in the intensity of photoluminescence at 1024 nm, which confirms the role and importance of mixed-valence species for the NIR emission. Thus, the emission is further enhanced upon additional oxidation of Pt(II) centers, which improves delocalization of electrons along the Pt---Pt vector. Other polymorph of the "Pt(DECO)2" complex--monomer--did not demonstrate luminescent properties in solutions and the solid state. An excitation scan of 5 embedded in KBr tablets revealed an emission only weakly dependent on the wavelength of excitation. The NIR emission of quasi-1D complex 5 was studied in the range of -193 to +67 °C. Data showed a blue shift of λmax and a simultaneous increase in the emission line intensity with a temperature rise, which is explained by analogy with similar behavior of known quasi-1D K2[Pt(CN)4]-based solids, quantum dots, and quantum wells with delocalized carriers. The presented finding opens a route to a new class of platinum cyanoxime based NIR emissive complexes that could be used in the design of novel NIR emitters and imaging agents.

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Synthesis and characterization of two cyanoxime ligands, their precursors, and light insensitive antimicrobial silver(I) cyanoximates

Riddles

Whited

Lotlikar

et al. 2014

Inorganica Chimica Acta

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High-yield syntheses of N-piperidine-cyanacetamide (1), N-morpholyl-cyanacetamide (4) and their oxime derivatives N-piperidine-2-cyano-2-oximino-acetamide (HPiPCO, 2) and N-morpholyc-2-cyano-2-oximino-acetamide (HMCO, 5) were developed using two-step preparations. At first, the reactions of neat cyanoacetic acid esters and the respective cyclic secondary amines such as piperideine and morpholine afforded pure cyanacetamides, which were converted into cyanoximes at room temperature using the nitrosation reaction with gaseous CH3ONO. The synthesized compounds were investigated by means of IR, 1H, 13C and UV-visible spectroscopy. Crystal structures of two starting substituted cyan-acetamides and two target cyanoximes were determined. Silver(I) complexes of AgL composition (L = PipCO, 3; MCO, 6) were prepared in high yield. Both metal complexes are thermally stable above 100oC, and remarkably stable to high intensity visible light. The stability of dried AgL compounds towards short wavelength UV-radiation (a frequently used germicidal light) was examined using diffusion reflectance spectroscopy. Both complexes demonstrate slow photoreduction within ~3 hrs, observable as a gradual color change and darkening due to the formation of fine (nano-scale) particles of metallic silver. The complex Ag(MCO), 6, is about 2.6 times less stable towards UV-radiation than its more lypophyllic analog Ag(PipCO), 3. Antimicrobial and biofilm growth inhibition properties of the prepared solid acrylate-based polymeric composites containing embedded silver(I) cyanoximates were investigated using three human pathogens: P. aeruginosa PAO1 (wound isolate), S. aureus NRS70 (methicillin resistant respiratory isolate), and S. mutans UA159 (cariogenic dental isolate). Studies showed that both 3 and 6 compounds completely abolished the growth of PAO1 at 0.5 weight % concentration, and the growth of UA159 and NRS70 at 1% concentration. Moreover, data demonstrates that complexes 3 and 6 also inhibit both planktonic and biofilm growth of Gram-positive and Gram-negative bacterial pathogens. The demonstrated thermal stability and pronounced antimicrobial activity of both silver(I) cyanoximates indicates the strong potential for the studied complexes to be used as light insensitive antimicrobial additives to light-curable adhesives that set indwelling devices in place.

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The first bis-cyanoxime: synthesis and properties of a new versatile and accessible polydentate bifunctional building block for coordination and supramolecular chemistry

Cited by 8 publications

References 56 publications

Nickel(II) Aqua Complexes with Chelating Ligands: What Happens When Water Is Gone?

Nickel(II) Aqua Complexes with Chelating Ligands: What Happens When Water Is Gone?

1D Polymeric Platinum Cyanoximate: A Strategy toward Luminescence in the Near-Infrared Region beyond 1000 nm

Synthesis and characterization of two cyanoxime ligands, their precursors, and light insensitive antimicrobial silver(I) cyanoximates

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